KR830002849B1 - Rod support for web charting device - Google Patents

Abstract

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Description

Rod support for web coating device

1 is a partial cross-sectional side view showing a rod support in an operating position relative to a coulter roll;

2 is a front view of the rod support.

3, 3a, 3b and 3c are cross-sectional views of the rod support showing the state in which the rod cavity is adjusted for wear.

FIELD OF THE INVENTION The present invention relates to a web coating apparatus for coating with paper such as, for example, magazine paper, and in particular, in a coating apparatus of the type called "rod coater", A novel rod support for mounting a metering rod.

Rod coaters are well known in the paper industry, for example, as illustrated in US Pat. Nos. 3,143, 438, 3,179,083, 3,683,851. Representative rod supports used in rod coaters are for example exemplified in US Pat. Nos. 3,683,851 and 3,701,335.

In a conventional rod coater, the rod is inserted into the rod support in a longitudinal direction from one end of the rod support as shown in the above-mentioned US patent devices, and the rod is inserted by press-fitting or a tight interference fit. This requires assembly at the tool factory. When the rod support in which the insertion rod is inserted is mounted to the applicator in the longitudinal direction, the coater should be in a "down" state or in an inoperative state.

Also, conventional rod supports cannot adjust the size of the rod cavity during operation in response to wear. In the mode rod coater, the coating agent contains various oxides and carbonates and is relatively abrasive, and wear of the surface of the rod support cavity, which is bearing the rotating rod, is unavoidable. If the gap between the rod and the rod support increases due to abrasion, lubrication water leaks, which adversely affects the coating operation on the paper surface. In addition, the uneven distribution of the coating agent attached to the rod and entering the cavity wears the rod support partially differently and the uneven wear causes water to leak in that part, diluting the coating agent and causing streaking on the paper surface. Cause.

In order to extend the life of the conventional rod support used in the rod coater, the inner diameter of the cylindrical cavity formed in the rod support is made smaller than the diameter of the rod, for example, by a tight tightening of 0.08 mm (0.003 inch). have. Thus, the rod support can be worn unnecessarily before the distance between the rod and the rod support becomes large, and excess water can leak to prevent streaks on the coated paper surface. Perhaps due to tight tightening, conventional coater rods typically wear out for 10 to 2 weeks before the chrome plating wears off. In addition, due to the cylindrical cavity wear in the rod support of the conventional rod coater, the lubricity starts to leak after 2 to 3 weeks of operation, and the coater stops operation for the replacement of the rod support. You must do it. Of course it costs a lot in terms of downtime of the coater and the cost of replacing the rod and rod support.

Conventional rod supports require high starting torque to rotate the rods during operation since they have a tight interference fit between the rods and rod supports in addition to their short lifespan. When the cavity of the rod support wears out and becomes large, the amount of lubrication water flowing through the rod surface and reaching the coating layer increases, and if it varies greatly from the initial amount of water flowing through the rod surface, the appearance of the rod support becomes new compared to the appearance of the coating layer when the rod support is new. Has a significant impact.

The present invention addresses the shortcomings and problems of prior art road coaters and solves their structural and operational problems. It is by employing two pressure tubes that the operation is stabilized and its adjustment is possible. The first pressure tube is provided between a bracketing backing bar mounted between the swiveling arm assemblies and the water load surface of the rod support opposite the rod cavity. The first pressure tube acts to allow the rod to form the desired rip line. It can also be used to load paper webs on the backing rolls.

The rod support of the present invention has a lip extending radially from one side of the rod cavity and extending longitudinally along the rod support. The second pressure tube expanding with air extends along with the lip portion of the support in the longitudinal direction of the support body and parallel to the rod cavity. The second pressure tube contacts the lip to apply a uniform force along the length of the lip, presses it outwards and acts to deflect the rod by uniformly deforming the one side of the rod cavity. Thus, the lip adjusts the diameter of the rod cavity by its movement in response to wear. Creating a freely selectable deformation of the rod cavity is facilitated by fabricating a rod support of plastic material such as high density polyethylene.

Thus, when the cavity of the rod support becomes large due to abrasion, the air pressure in the second pressure tube is gradually increased to move the lip, to secure the mounting of the rotating rod and the cavity, to maintain the same degree of mounting, and to maintain the rod surface. Make sure the lubricant flowing through is moderately uniform. Thus, the metering of the preferred coating amount can be made uniform.

The lip portion of the rod support can easily enlarge the rod cavity or enlarge its opening, thereby removing the rod from the front rather than from the end of the rod support and installing a new rod. Being able to adjust the opening amount of the rod cavity can change the rod without removing the rod support from the machine, and can extend the life of both the rod and the rod support. Using this adjustable rod support, although the service life varies depending on the operating conditions and the coating agent, the life of the rod support is longer than about 2 to 3 weeks of the conventional rod support, and it can be expected to extend to 3 months.

It is therefore an object of the present invention to provide an improved rod support for the metering rod of an applicator that can adjust the size of the cavity of the rod support in response to wear.

Another object of the present invention is to provide a rod support in which the rod can be removed and installed from the front without forcing or modifying the lip.

Still another object of the present invention is to provide a rod support capable of adjusting the gripping pressure on the rotating rod to control the amount of lubricant water flowing through the rod into the coating agent.

Yet another object is to provide a rod support having a longer service life than about three weeks.

The feature of this rod support is to provide extraction or positioning of the rod by providing two pressurized air tubes and thus to adjust the effective diameter of the rod cavity.

The objects, features and advantages of the present invention will become apparent to those skilled in the art from the following detailed description of the preferred embodiments described with reference to the accompanying drawings.

As shown in FIG. 1, the coater backing roll 10 rotates in the direction of arrow 11 to support the paper web 12, and the film 14 of the coating agent is attached to the paper web upper surface by an application device not shown. The metering rod 18 is rotatably mounted in a cylindrical cavity or bore 20 extending in the longitudinal direction of the rod support 16, wherein the axes of rotation of the rod and backing roll are parallel to the paper web. It is arranged opposite the backing roll. The drive motor 50 is operatively connected to the rod to rotate the rod in a direction opposite to the direction of the backing roll indicated by arrow 19.

The rod support is mounted to bar 40 by clamps 42 between a pair of arm assemblies 54 one on one side of the coater. The arm assembly is mounted to pivot about axis 52 on the frame of the coater to pivot the backing roll in both directions of arrow 60. An arm assembly 54 on either side of the application device is combined with an air spring 56 which exerts a force on each arm assembly 54 in the direction of arrow 58 to move the rod so that the paper web contacts and falls off the backing roll. .

The lower surface 22 is formed on the rod support body 16 behind the rod cavity, and the 1st pressure tube 28 is arrange | positioned with respect to the surface. The first pressure tube is mounted in a plurality of axially extending and adjacent segments of the backing bar 41, each segment about 125 mm (about 6 inches) in length. Each backing bar segment has an adjustment screw 46 extending rearward through the back of the adapter 43 mounted on the bar 40. Each adjusting screw 46 passes through a corresponding adjusting nut 44, each of which is arranged in a slot with the top open in the adapter 43. Clamp 48 holds backing bar 41 and knurled adjustment nut 44 in place.

The first air source 32 is connected to the first pressure tube 28 and the second air source 34 is connected to the second pressure tube 30. The second pressure tube will be described later in detail.

As shown in detail in FIG. 2, the pair of conduits 36, 38 extend longitudinally along the cavity 20 of the rod support. The pressurized water source 62 is connected to conduit 36 at one end of the rod support and the second pressurized water source 64 is connected to conduit 38 at the other end of the rod support. The flow of water through the conduits and passages is installed at right angles so as to evenly remove the coating along the length of the rod. The water also becomes Rhodo's lubricant.

During operation, the pair of air springs 56 act on one end of the arm assembly 56 on either side of the applicator and to pivot the rod support device towards the paper web 12 supported by the backing roll 10. The drive motor 50 rotates the rod in the rod support in the direction of arrow 19, and the direction of rotation thereof is opposite to the direction 11 of the paper web moving on the backing roll. The rotational speed of the rod 18 can be varied and controlled by the driver. Typically, the rod rotation speed may vary from about 60 rpm to about 120 rpm depending on other factors such as backing roll speed and coating composition. Typically is applied to the web to the longitudinal downstream of the position at which the load 18, the amount of coating agent 14 (about 10 pounds per 1000ft ²⁾ 48g per 1m ² grip the web of the long face to the backing. The gripping pressure of this rod generally varies from about 1.43 kg / cm ² to about 3.22 kg / cm ² and can be applied in either of two ways. The most common preferred method is to apply an air spring 56 to the extension 54 of the arm assembly on either side of the applicator. The gripping pressure of the roll against the backing roll corresponds to the air pressure of the air spring 56. However, if desired, the air spring 56 can be used to rotate the entire rod assembly around the pivot side 52 to a stop on the applicator frame (not shown). Thus, rod 18 is barely in contact with the web surface and the applicator is metered on that surface. Make contact with the web at the gripping load.

Thereby loading 18 the metering action of the rotating rod with respect to the coating agent on a traveling web, regardless of whether the load gahaneunga the web is traveling web surface coating agent reduces the amount of up to about 9.8g (about 2 lbs / 1000ft ²⁾ per 1m ² .

It is very important that the coating agent applied to the web be applied evenly over the entire web surface. Ideally, of course, this means that the horizontal grip on the cylindrical rod surface should be completely straight. However, due to various inconsistencies in the web forming process of the machine, the web itself is not uniformly uniform in cross section or thickness in the direction perpendicular to the machine. In short, this means there is a swelling or reduction in thickness anywhere from perhaps tens of quarters to one thousandth of a centimeter, along the web width. The gripping action line with which the rod contacts to apply the web as evenly as possible and the web's contour in the direction perpendicular to the machine and the gripping action line with which the rod contacts to apply the web as evenly as possible and It is desirable to have a close agreement. This is made possible by dividing the backing bar 41 into segments so that the first pressure tube 28 mounted thereon provides the holding pressure to the metering rod 18. The backing bar 41 preferably consists of a length of 15 cm (about 6 inches) and a number of segments, the segments being arranged adjacent over the entire length of the operating range of the pressure tube 28.

In the center of each segment of the backing bar 41, the adjustment screw 46 which protrudes behind the adapter 43 is attached. Each adjusting screw is engaged with the adjusting adjusting nut 44. By rotating the adjustment nut 44 in the particular segment of the backing bar 41, the corresponding portion of the longitudinally mounted pressure tube 28 extending longitudinally at the front of each segment is slightly relative to the water load 22 on the back of the rod support. Move back and forth. As a result, the surface of the rod at that location is adapted to the cross-sectional contour of the paper web at that location on the backing roll and the applicator can be metered to have a uniform coating thickness over the entire width of the web.

The structure of the adjusting nut 44 and the adapter 43 is such that the adjusting nut 44 is accommodated in the slot of the adapter 43. Thus, by rotating the adjusting nut 44, the adjusting screw 46 moves in one direction, either forward or rearward. The non-rotating adjustment nut 44 secures their respective adjustment screws. By arranging in this way, the backing bar segment can be selectively adjusted.

As the rod rotates in the cavity of the rod support, the applicator enters the gap between the rod and the rod support cavity and the cavity begins to wear out and expand by the polishing action of the applicator. A generally cylindrical bore may be enlarged to a non-cylindrical shape by wear. In a conventional rod support having a cylindrical diameter cavity of a constant diameter, when the rod support spacing of the rod is 0.05 mm (0.002 inch) or more due to abrasion, the amount of water flowing from the lubrication groove to the rotating rod becomes large, and the coating agent is diluted to the web. Generate an unmarked mark. Typically it occurs after about 10 to 3 weeks of operation. Since the rod of a conventional coater must be installed from the end of the support with a simple tightening to extend the service life, the coater must stop running and remove the rod support to install a new rod.

In the device of the present invention, the rod 18 and the cylindrical rod cavity 20 are designed to be mounted by conventional indentation methods. For example, the rod is chrome plated and has a processing dimension of 9.60 / 9.58 mm (0.378 / 0.377 inch) and the rod cavity has a processing dimension of 9.58 / 9.60 mm (0.377 / 0.378 inch).

When the surface of the cylindrical cavity wears during operation, the cavity surface or inner wall on the side where the lip portion 24 of the rod support extends is bent or inwards toward the axis of the rotating rod by a distance of about 0.3 mm (about 0.015 inch). It is supposed to be printed out. This distance is dependent on many factors, for example the size of the rod support or rod cavity, the length of the rib 24, the material used therein and thus can be made large or small as required.

As shown in FIGS. 3A, 3B, and 3C, a uniform force is applied to the second hand 26 by the increase in pressure in the second pressure tube 30, such that movement of one axis of the cavity occurs when the lip 24 turns. Is achieved. In FIG. 3B, the cavity is enlarged to a large size as indicated by the number 20a. The enlarged cavity 20a may no longer be a cylinder.

As shown in FIG. 3C, the force indicated by arrow 66 is applied by inflating the second pressure tube 33 and the corresponding portion of cavity 20a is bent by pressing the lip portion 24 by an interval “D” to produce a cavity 200a. It is bent by pressing inward to effectively reduce its diameter. The position of the lip 24 and the enlarged cavity 20a before the force is applied are indicated by dotted lines in FIG. 3C. Corresponding to the air pressure supplied to the pressure tube 30 from the second air source 34 such as the air compressor, the size of the cavity 20a easily and effectively returns to the initial size of the cavity. This ensures that the sealing pressure of the rod support cavity wall cannot be maintained on the rod surface as desired and thus maintains the desired fit between the rod and the rod support cavity. It is not necessary to return to its original cylindrical inner diameter by the movement of the lip and this return is not necessary. The aim is to keep the tightening between the rod and the rod support as constant as possible and to prevent excessive leakage around the rod. For this purpose, the locomotive required by the drive motor 50 which rotates the rod is kept almost constant, and the rod can be applied evenly and smoothly. Uniform tightening also increases the throughput of the coating, which is a film of water flowing through the rotating rods from the lubricating slots 36 and 38 to allow the rod to meter the coating amount to the desired weight, thereby producing streaks or out-of-coating This is because it is controlled so as not to damage the tube.

The rod rotation speed is increased or decreased, for example, in the range of about 60 to 120 rpm to prevent the occurrence of a defect on the metered coating film on the web due to the wet of the film. Film tearing is a phenomenon that occurs when a coating of liquid is between two surfaces moving in different directions.

Representative examples thereof appear when a coating applied to a web passes between a pair of nip rolls. Either surface or both surfaces of the web and the roll are in contact with the coating agent. The web and roll surfaces diverge at the gripping point discharge. The applicator is laterally separated into two films with one of the films remaining on the web and the other remaining on the roll surface. When the coating agent separates into two films, a plurality of yarn-like liquid coating agents occur between them, and one end of the yarn is in contact with one of the two film surfaces. This is sometimes customarily called "stickies". The coating agent which breaks like a thread and returns to each film surface is not preferable because it causes a poor appearance on the film remaining in the web and contaminates the surface already applied.

The adjustment of the rotation speed of the rod is made by the driver and is adjusted in consideration of the backing roll speed, the amount of application and the kind of the coating agent, and other factors such as humidity or temperature affecting the application process. Rotating the rod in the opposite direction of the web to the applied species causes the web to remain on the web so that any webs or defects caused when the separated film on the rod is pulled from the separated film remaining on the running web do not occur. It works to smooth the "sticky" of the separated film.

The rod is chrome plated and has a smooth surface so that impurities do not mix in the coating agent. The rod 18 can be removed from the rod support when the chromium plating of the rod is worn, or when the rod backing cavity becomes too large to increase the lip travel and thus retain the desired tightening. To do so, the pressure of the second pressure tube 30 is lowered and the lip 24 is pushed inward to eject the rod from the front of the rod support to mount a new rod. If the rod's chrome plating is worn, a new rod of the same size should be fitted and a larger diameter rod should be fitted if the cavity extends from the desired size. In either case, the load can be changed and significant time can be saved without removing the rod support from the coater.

Although the preferred embodiment of the rod coater device has been described in detail above, it can be expected that various modifications and substitutions of the material are possible within the spirit and scope described in the claims. Polyethylene, for example, is the preferred material for rod supports, but satisfactory results are also obtained with other materials such as polypropylene, vinyl or Teflon. The basic point of view is that even if the material forming the inner wall of the rod support cavity is rigid, even if the material is elastically deformable, the cavity holds the rod and can change the desired response corresponding to the inner diameter of the cavity in response to the movement of the lip. Is that there is.

The most common and preferred method is to fabricate the entire rod support from a suitable plastic material such as pulley ethylene. However, it is not necessary for the rod support to be made entirely of the same material in order for the rod support to fulfill its function by the above principle. For example, it is also possible to fabricate the lip portion of the rod support from metal and to allow the rod support to change the size of the desired cavity.

In addition, the allowable limit of the diameter of the rod, the opening dimension of the rod support, and the wear of the rod support required to be replaced is exaggerated than the actual limit, and the relationship is shown in the figure.

Claims (1)

A rod support for use in a web application apparatus in which a rod is disposed with respect to a traveling web to improve an application amount, the rod support being rotatably receiving a cylindrical rod and having a bore wall extending in a longitudinal direction made of a rigid and elastically deformable material; A first input surface that receives and transmits a first force to the cavity to equalize the gripping force between the rod surface and the web on the backing roll; Extend along the cavity along one side of the cavity in the longitudinal direction of the rod support and move the lip portion to the inside of the corresponding side of the cavity bore wall to reduce the inner diameter of the cavity and increase the desired tightening of the rod in the cavity; And a lip portion having a second pressure surface for receiving a second force to maintain or reduce.

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